Recording and reproducing device
A recording and reproducing device (1) in which, when the power is turned off, the state of the power can be controlled to be in either one of a first power-off state and a second power-off state in which the recording and reproduction device (1) can be started faster than in the first power-off state. The recording and reproducing device (1) has a “first standby mode” during which the power state of the device is controlled to the first power-off state when the device receives a power-off instruction, and a “second standby mode” during which the power state of the device is controlled to the second power-off state when the device receives a power-off instruction. A power controller (30) makes, according to a setting time zone, the second standby mode active only for a predetermined time zone including the setting time zone.
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The present invention relates to a device for recording and reproducing broadcast waves including video and audio which are received by the device.
BACKGROUND ARTRecording and reproducing devices have been used widely hitherto as means for recording broadcast program in recording media such as magnetic tape, optical disk or hard disk and reproducing them. Using such recording and reproducing devices, the user can both record a program being currently viewed, and record a predetermined program at a predetermined time with a timer recording function.
In a conventional optical disk recording device, outline of process until staring recording after turning on the power is explained. The recording apparatus includes a tuner for receiving broadcast waves, a controller for controlling the operation of the device, an encoder for encoding, several types of input and output (I/O) interfaces, and a disk drive device. In such device, when the power of the device is turned on, first, the tuner, controller, encoder, I/O interfaces and other units in the device are initialized. The disk drive is also initialized. When all initialization is complete, it is ready to start recording of broadcast waves.
Since it is required to complete initialization to all units by the device becomes ready to start recording, it takes a long time about 30 to 60 seconds from start of supplying the power until start of recording in an optical disk recoding device. Thus the user has to wait for a while after turning on the power switch.
By contrast, a new device has been proposed (see, for example, patent document 1), which is provided with a cache memory. The new device starts storing of encoded data to the cache memory when initialization of the controller, encoder and cache memory is complete after turning on the power, and starts recording from the cache memory to the disk when initialization of the disk drive is completed. According to this device, without waiting for completion of initialization of the disk drive, recording process is started upon completion of initialization of controller and encoder, and the user can start recording without waiting for completion of initialization of the disk drive.
Patent document 1: JP-A-2004-147200
DISCLOSURE OF INVENTION Problem to be Solved by the InventionAccording to the conventional recording device, however, although the time for initializing the disk drive is shortened, it still requires a certain time for initialization of the controller, encoder, and the other units than the disk drive, and the user still has to wait for completion of initialization of the units.
The present invention is directed to solve the problem, and has an object thereof to present a recording and reproducing device capable of shortening starting time upon turning on the power, enhancing user's convenience.
Means of Solving ProblemsA recording and reproducing device according to the present invention is a device (apparatus) capable of recording and/or reproducing video and/or audio data. The device includes a signal processing circuit for processing video and/or audio data, a drive unit for recording the processed data to a recording medium, and a power controller for controlling supply of power to the signal processing circuit and drive unit. In the recording and reproducing device, during power-off state of the recording and reproducing device, the power state can be controlled to be in either one of a first power-off state and a second power-off state. The second power-off state can make the recording and reproducing device start at a higher speed than that of the first power-off state when receiving a power-on instruction. The recording and reproducing device has “a first standby mode” for controlling the power state to the first power-off state when receiving a power-off instruction, and “a second standby mode” for controlling the power state to the second power-off state when receiving a power-off instruction. The power controller makes the second stand-by mode active according to a setting time zone for a predetermined time zone including the setting time zone.
In order to realize faster starting in the second stand-by mode than in the first stand-by mode, the supply of power to the signal processing circuit and drive unit may be stopped in the first stand-by mode. In the second stand-by mode, the supply of power to the drive unit may be stopped, and the power may be supplied to the signal processing circuit.
EFFECT OF THE INVENTIONAccording to the present invention, the recording and reproducing device can change over between a first stand-by mode, and a second stand-by mode capable of starting earlier than in first stand-by mode after turning on the power, in which the user can select a desired mode as required. When the user desired to start earlier, the user can select the second stand-by mode to meet user's demand thus enhancing the user's convenience. The second stand-by mode causes greater power consumption than the first stand-by mode because it achieves higher speed start-up than in the first stand-by mode. The user can choose the setting in consideration of tradeoff between power consumption and starting time, and thus the user's convenience can be enhanced.
- 1 Recorder
- 10 Signal processing circuit
- 11 System controller
- 12 Input and output (I/O) interface
- 13 Recording processing unit
- 14 Recording controller
- 15 Buffer memory
- 16 Reproduction processing unit
- 20 Data storage unit
- 30 Power controller
- 40 Status display unit
- 50 Drive unit
- 51 DVD
- 60 Tuner
- 61 Analog signal processing unit
- 62 Digital signal processing unit
- 90 Remote controller
Preferred embodiments of the invention are described below while referring to the accompanying drawings. In the following embodiments, the recording and reproducing device is explained as a recorder for receiving broadcast waves and recording programs.
Embodiment 1The basic functions and operations of the recorder 1 are as follows. That is, the recorder 1 receives an analog broadcast wave, performs specified compression and encoding process to generate an MPEG-2 program stream (hereinafter called program stream) for a program. The recorder 1 also receives a digital broadcast wave, extracts TS packets for a specific program from an MPEG-2 transport stream, and generates a program stream on the basis of compressed and encoded video data and (compressed and) encoded audio data composed of the data in the packets. Later, the recorder 1 writes the generated program stream in a DVD (for example, DVD-RAM) 51 by making use of the drive unit 50.
In the embodiment, the DVD (digital versatile disk) is used as an example of a recording medium, but this is only an example. Other optical recoding media may be also used (such as Blu-ray disc), or tape, hard disk, or other magnetic recording media may be also used. However, data must be written in a data format conforming to the type of specific recording medium (for example, transport stream for Blu-ray disc). The DVD 51 is an exchangeable medium, and hence it is not a component of the recorder 1. However, if the recording medium is not exchangeable (for example, general hard disk), it is a component of the recorder 1.
The signal processing circuit 10 is a circuit for processing digital signals. Specifically, the signal processing circuit 10 is responsible for encoding and decoding of a digital signal, converting a format of the digital signal, and generating program streams to be written to the DVD 51, and so on. The signal processing circuit 10 includes a system controller 11, an input and output (I/O) interface 12, a recording processing unit 13, a recording controller 14, a buffer memory 15, and a reproduction processing unit 16.
The system controller 11 is, for example, a microcomputer or CPU, and controls not only the signal processing circuit 10, but also the entire recorder 1. The I/O interface (called just “interface” hereinafter) 12 receives signals from the tuner 60, and controls various modes of the interface.
The recording processing unit 13 compresses video data and audio data, multiplexes the compressed video and audio data, and sends the processed video and audio data to the recording controller 14. The digital signal may be also sent to the recording controller 14 in a route (not shown) not passing through the recording processing unit 13. This is intended to allow the received transport stream to be recorded directly when recording digital broadcast in Blu-ray disk or the like.
The recording controller 14 controls operation of the drive unit 50 for reading and writing data. The recording controller 14 sends the data (program stream) received from the recording processing unit 13 to the drive unit 50, and instructs it to write data to the DVD 51. When reading out data, the data to be read is designated to the drive unit 50, and the read data is transferred to the reproduction processing unit 16. During such process, the recording controller 14 sends the program stream to the buffer memory 15 to store the program stream temporarily. By writing data after storing a specific quantity of program data (program stream) in the buffer memory 15, it is possible to write stably in the DVD 51.
The buffer memory 15 is a memory for temporarily storing the program stream. In the embodiment, the buffer memory 15 stores the program stream temporarily until the drive unit 50 starts.
The reproduction processing unit 16 de-multiplexes the video and audio encoded data from the program stream recorded in the DVD 51. The reproduction processing unit 16 further decodes the encoded video data into digital vide data, and decodes the audio encoded data of various standards into digital audio data. The reproduction processing unit 16 further converts digital data into analog data to output them to a display unit. The reproduction processing unit 16 also creates a specified screen of selection menu or the like, and superimposes the screen on the image to be reproduced. The video and audio outputs are delivered through display device, such as TV receiver, speaker or other devices.
The data storage unit 20 is a block including RAM 20a as volatile memory, and ROM 20b as nonvolatile memory. The ROM 20b is a memory capable of writing data such as EEPROM. The RAM 20a stores status of a recording medium installed in the drive unit 50 of the recorder 1 (specifically information as to whether the disk type is suited writing, or whether there is an unused region or not in the disk), or control parameters such as laser power value optimum for writing of data by making use of the drive unit 50. The stored data may be written appropriately in the ROM 20b to be held. The RAM 20a is loaded a start program of the recorder 1 stored in the ROM 20b, and the system controller 11 reads out the start program from the ROM 20b to executes it. The system controller 11 may directly read out the program from the ROM 20b to execute it. At this time, it is not necessary to load and develop the program in the RAM 20a.
The power controller 30 individually controls supply of power to individual units in the recorder 1, and also controls the power source of the entire recorder 1 in batch. The power controller 30 controls the power source in response to power on/off instruction from the user. This instruction is sent to the recorder 1 by user's pressing a power button on the recorder 1 or the remote controller 90. At this time, the power controller 30 transfers the instruction to the system controller 11.
The power controller 30 has a timer microcomputer (not shown), and manages time information of the system. By these functions, for example, when recording is programmed, the power source of each unit in the recorder 1 is turned on at the predetermined time. According to the power on/off instruction, the power controller 30 cuts off the power source of units other than the signal processing circuit 10, or cuts off the power source of the entire recorder 1. When feeding power only to the signal processing circuit 10, it may be further controlled to feed power only to a specific element (for example, system controller 11) in the signal processing circuit 10. In the specification, power-on (feed) means supplying the power, and power-off (cut) means stop of supplying the power. The expression of power on/off applies not only to the entire recorder 1, but also to individual constituent elements of the recorder 1. In particular, the power controller 30 controls the power-off state in two different states. The detail is described later.
The status display unit 40 composed of liquid crystal display or FL tube (fluorescent display tube) or the like, and displays the information shown by the user whether the power of the recorder 1 is turned on or not. For example, when the power is turned off, the current time or the like is displayed. When the power is turned on, the symbol showing the allowable record duration at this time, play mode, fast-forward mode, or rewind mode is displayed.
The drive unit 50 has an optical head (not shown) for emitting a laser light to the DVD 51. With the optical head, the drive unit 50 program writes data to the DVD 51, or reads and outputs the written program data.
The tuner 60 receives and demodulates the analog broadcast wave and digital broadcast wave from broadcasting station respectively in the analog signal processor 61 and digital signal processor 62.
The operation of the recorder 1 is explained. The recorder 1 of the embodiment has two stand-by modes as control mode in power-off state. That is, during power-off state, it has a “first stand-by mode” which does not supply power at all to any one of units in the signal processing circuit 10, and a “second stand-by mode” which continues supplying power to all or part of units in the signal processing circuit 10 and the power controller 30.
In the first and second stand-by mode, power feed to the drive unit 50 is stopped. However, power feed is maintained to circuits necessary for receiving a signal from the remote controller 90 or a power button on the recorder 1. In the second stand-by mode, power is supplied to more number of units than in the first stand-by mode, and thus the power consumption is larger than in the first stand-by mode. In the second stand-by mode, specified power control is executed, and output operation of video and audio signals from the signal processing circuit 10 to the display device is stopped. As a result, video is not displayed in the display device, and audio is not outputted, and this causes the user to see that the recorder 1 is stopped. In the following description, the status in which the recorder 1 is in the second stand-by mode is called “apparent power-off state.” By contrast, the status in which the recorder 1 is in the first stand-by mode is called merely “power-off state.”
In the “apparent power-off state,” since power is fed to at least a part of hardware elements of the signal processing circuit 10, initialization to them is not needed when the power of the recorder 1 is turned on. In the “apparent power-off state,” software elements such as operating system, file system, and application software have been already read and are in ready state. Therefore, even if the user instructs to turn on the power during the “apparent power-off state”, initialization of these elements is not needed. In this case, as soon as starting of tuner 60 and its inside elements such as an analog signal processor 61 and digital signal processor 62 is over, the signal processing circuit 10 of the recorder 1 immediately starts processing, and obtained data is stored in the buffer memory 15.
The power may be always supplied while the power of the recorder 1 is turned off in that way. However if there is a time zone for which the recorder is never used evidently, it may be controlled in the “power-off state” in the time zone to stop supply of power to the signal processing circuit 10. As a result, power consumption is estimated to be saved. Setting of such time zone (start time, end time) can be determined on a specified setting screen. This function of shortening the start time by continuing to supply power to the signal processing circuit 10 during “apparent power-off state” is called “quick start function.”
The recorder 1 of the embodiment has a setting item of “quick start” as one of setting items. For example, quick start can be set on a setting screen as shown in
The user can set the quick start function by pressing any one of the buttons. When the select button 101 is selected, the setting for supplying always power to the signal processing circuit 10 is set and hence the user can utilize the quick start function whenever desired. When the select button 103 is selected, the supply of the power to the signal processing circuit 10 is stopped, and the user cannot utilize the quick start function. When the select button 102 is selected, the quick start function is set active for a specified time zone only and inactive for the other time zone.
In
With
Thus, according to the recorder 1 of the embodiment, active/inactive setting of quick start function can be made according to the life style of the user, and the total power consumption can be saved while making the quick start function active substantially.
When setting the time zone of active quick start function, the power consumption amount may be displayed to the user. When the quick start function is active, the starting time can be shortened, but the power consumption is increased during the waiting time. Accordingly, when setting the time zone of active quick start function, by displaying the power consumption and electricity charges expected from the time zone set at the same time, the user can set the time zone of active quick start function in consideration of cost and effect.
In embodiment 1, the time zone having high possibility of using the recorder 1 is set by the user, and the quick start function is activated according to the set time zone. In the recorder 1 of the present embodiment, by contrast, when the recorder 1 is not used for a specific time after it becomes the “apparent power-off state,” the quick start function is set inactive automatically. This can reduce the power consumption. This is convenient for the user who uses the recorder irregularly since the user does not have to set the time zone.
The operation of the recorder 1 (power controller 30) is explained in a case that right after the user turns off the power of the recorder 1, the quick start function is set active, and subsequently when the user does not use the recorder for a specified time, the quick start function is automatically set inactive. The flowchart of the operation is shown in
In
With this operation, the quick start function is set inactive automatically when the user does not use the reorder 1 for a specified time (for example, about 3 hours) after the recorder 1 falls into the “apparent power-off state”, saving the power consumption on the whole. This function is particularly useful for the user who uses the recorder not frequently, such as only once or twice a week.
In addition to the process in
When the quick start button is pressed in the power-off state (S501), the power controller 30 turns on the power of the recorder 1 (S502). Then, power is supplied to each unit of the recorder 1. The recorder 1 displays the setting screen shown in
When the setting of the quick start function is set active by the user (S503), or if the quick start button is not pressed at step S501, the process goes to step S504.
The process at steps S504 to S507 corresponds to the process at steps S400 to S403 in
Hence, according to the embodiment, when the user does not use the recorder 1 for the specified time after setting of the “apparent power-off state,” the quick start function is inactivated automatically, thus reducing the power consumption.
Embodiment 3In Embodiment 2, a method including automatically inactivating the quick start function when the recorder 1 is not used. The present embodiment relates to a method including learning the time zone for which the recorder 1 is being used, and setting the quick start function active automatically in a time zone including time zones before and after the learned time zone.
For example, when a certain user prefers to use the recorder 1 particularly from 18:00 to 22:00, the quick start function is set active in a time zone including time zones before and after this time zone, that is, from 17:00 to 23:00, and is set inactive in the other time zone. As a result, in the time zone for which the recorder 1 is rarely used, the quick start function is inactive and thus the power consumption can be saved. This method is particularly useful for the user who uses the recorder 1 preferably in a specific time zone in daily or weekly.
When the power of the recorder 1 is turned off, the power controller 30 stores information of time zone for which the power of the recorder 1 is on to the data storage unit 20 (S600). For example, when the reorder is used from 20:00 to 22:00 on Monday, information about it is stored to the data storage unit 20. On the basis of the time information stored in the data storage unit 20, a time zone for activating the quick start function is set (S601). Herein, according to the time information stored in the data storage unit 20, a time zone for next activating the quick start function is set. In this example, since the recorder is used from 20:00 to 22:00 on Monday, it is predicted that the recorder is more likely to be used from 20:00 to 22:00 on next days similarly. Therefore, the recorder 1 sets the time zone for activating the quick start function to a time zone of 19:00 to 23:00 on every day weekly. The reason why the time zone is set to 19:00 to 23:00 is to provide a margin in consideration of slight time variations.
It is checked if the current time is within the set time zone for activating the quick start function (S602). If the current time is within the time zone for activating the quick start function, the quick start function is set active (S603). If the current time is out of the time zone for activating the quick start function, that is, in the time zone for inactivating the quick start function, the quick start function is set inactive (S604). In this example, the quick start function is active from 19:00 to 23:00, and is inactive in the other time zone. When the user turns on the power (S605), this process is terminated.
Thus, the quick start function is active only in the time zone set at step S601. In this case, at step S601, the time zone for activating the quick start function is set on the basis of the time zone of the previous starting operation, but history data for a few or several past starting times may be stored, and the time zone in which the recorder would be used next may be predicted from the stored historical data. For example, if the recorder 1 is used from 20:00 to 22:00 only on every Monday, it is estimated that it is hardly used on the other days, and the quick start function is set active from 19:00 to 23:00 on every Monday.
As described above, by learning the history of the user's viewing programs and setting the active time zone for activating the quick start function on the basis of the history, the power saving merit is greater for the user habitually determined in the viewing pattern of the recorder. The learning operation of the viewing history of the user may be also executed in the signal processing circuit 10.
Not limited to the viewing history of the user, the time zone for activating the quick start function may be also determined with reference to the electronic program guide (EPG). To utilize the EPG information, an EPG processing unit for receiving and processing the EPG is needed, but it can be also processed by the system controller 11 or power controller 30.
Herein, in time zone from T1 to T2, no program is broadcasted in any one of channels 1 to 3. In this case, it is hardly expected that the user may view or record any program in this time zone. By setting the quick start function inactive in the no-broadcast time zone in any channel, the power consumption can be reduced substantially without any inconvenience for the user. This operation flow is shown in
The EPG is received from the broadcast wave, or the EPG data already received and stored is acquired (S800). Referring to the EPG, the no-broadcast time zone in any channel is extracted and set in the time zone for activating the quick start function (S801). The process at subsequent steps S802 to 805 is same as the process at steps S602 to S605 shown in
The invention can shorten substantially the time from power-on to start of recording operation while reducing standby electricity, and hence it is particularly useful for a recording and reproducing device (apparatus) having a drive device of recording medium which spends much time in initialization.
The invention is described herein by referring to specific embodiments, but may be freely changed and modified within the scope of the invention by those skilled in the art. The invention is hence not limited by the disclosed embodiments herein, but may be limited by the scope of the appended claims. This application is related to the Japanese Patent Application No. 2005-150377 (filed May 24, 2005), the entire contents of which are incorporated herein by reference.
Claims
1. A recording and reproducing device capable of recording and/or reproducing video and/or audio data, comprising:
- (a) a signal processing circuit for processing video and/or audio data; a drive unit for recording the processed data to a recording medium; and a power controller for controlling supply of power to the signal processing circuit and drive unit, wherein
- (b) during power-off state of the recording and reproducing device, the power state of the recording and reproducing device can be controlled to be in either one of a first power-off state and a second power-off state, the second power-off state capable of making the recording and reproducing device start at a higher speed than that of the first power-off state when receiving a power-on instruction,
- (c) the recording and reproducing device has a first standby mode for controlling the power state to the first power-off state when receiving a power-off instruction, and a second standby mode for controlling the power state to the second power-off state when receiving a power-off instruction, and
- (d) the power controller makes the second stand-by mode active according to a setting time zone for a predetermined time zone including the setting time zone.
2. The recording and reproducing device of claim 1, wherein the supply of power to the signal processing circuit and drive unit is stopped in the first standby mode, and the supply of power to the drive unit is stopped and the power is supplied to the signal processing circuit in the second stand-by mode.
3. The recording and reproducing device of claim 1, wherein the setting time zone can be set to make the second stand-by mode active or inactive all the time.
4. The recording and reproducing device of claim 1, wherein the setting time zone is set on the basis of results of learning times of power-on and power-off operations by the user.
5. The recording and reproducing device of claim 1, wherein the power controller transfers to the first standby mode when a predetermined time elapses in the second standby mode after the second standby mode starts.
6. The recording and reproducing device of claim 5, wherein the predetermined time can be set by the user.
7. The recording and reproducing device of claim 1, wherein the signal processing circuit receives electronic program guide information, and the setting time zone is set according to time zone having no broadcast obtained from the received electronic program guide information.
8. The recording and reproducing device of claim 1, further comprising a processing unit for creating a setting screen through which the user enters setting information on the setting time zone,
- wherein the setting screen displays time information entered by the user as the setting information, and power consumption and/or electricity charge according to the entered time information.
20070230289 | October 4, 2007 | Minabe et al. |
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- International Search Report issued Jun. 6, 2006 in the International Application No. PCT/JP2006/309069.
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Type: Grant
Filed: May 1, 2006
Date of Patent: Aug 31, 2010
Patent Publication Number: 20090092011
Assignee: Panasonic Corporation (Osaka)
Inventors: Takeshi Matsushita (Osaka), Hiroto Mizouchi (Osaka)
Primary Examiner: Paul Huber
Attorney: Wenderoth, Lind & Ponack, L.L.P.
Application Number: 11/915,117
International Classification: G11B 20/00 (20060101);